#include <madCopyright.h>
/********************************************************************************
* madVctApi.c
*
* DESCRIPTION:
*       VCT API test functions (madVctTest,madGetExtendedStatus)
*
* DEPENDENCIES:
*       MAD Driver should be loaded and Phys should be enabled
*       before running sample test functions as specified in
*       sample\Initialization\madApiInit.c.
*
* FILE REVISION NUMBER:
*
*******************************************************************************/
#include "madSample.h"

static
void displayVCTResult
(
    MAD_TEST_STATUS *cableStatus, 
    MAD_CABLE_LEN *cableLen
)
{
    switch(*cableStatus)
    {
        case MAD_TEST_FAIL:
            MSG_PRINT(("Unable to test this Cable pair\n"));
            break;
        case MAD_NORMAL_CABLE:
            MSG_PRINT(("TDR test completed in this Cable pair. No problem found.\n"));
            MSG_PRINT(("Cable Length of this pair is unknown.\n"));
            break;
        case MAD_IMPEDANCE_MISMATCH:
            MSG_PRINT(("TDR test completed in this Cable pair with Impedance Mismatch.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableLen->errCableLen));
            break;
        case MAD_OPEN_CABLE:
            MSG_PRINT(("TDR test completed in this Cable pair. The Cable pairis open.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableLen->errCableLen));
            break;
        case MAD_SHORT_CABLE:
            MSG_PRINT(("TDR test completed in this Cable pair. Cable is short.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableLen->errCableLen));
            break;
        default:
            MSG_PRINT(("Unknown Test Result.\n"));
            break;
    }
}
static MAD_MDI_MODE orgMdiMode = MAD_AUTO_MDI_MDIX;
static MAD_BOOL     orgSGMIIState = MAD_TRUE;
static MAD_SPEED_MODE   orgSGMIISpeed = MAD_SPEED_1000M;

/* VCT (TDR) */
static    MAD_CABLE_STATUS cableStatus;

MAD_STATUS madVctTest(MAD_DEV *dev,MAD_LPORT port)
{
    MAD_STATUS status;
    int i;

    if (dev == 0)
    {
        MSG_PRINT(("MAD driver is not initialized\n"));
        return MAD_FAIL;
    }
    /*
     *    Retrieve MDI Crossover mode
    */
    if((status = mdCopperGetMDIMode(dev,port,&orgMdiMode)) != MAD_OK)
    {
       MSG_PRINT(("mdCopperGetMDIMode return Failed\n"));
        testMADDisplayStatus(status);
        return status;
    }

    /*
     *    Retrieve SGMII Auto-Neg mode
    */
    if ((dev->deviceId!=MAD_88E1116)&&(dev->deviceId!=MAD_88E3016)
        &&(dev->deviceId!=MAD_88E3082)&&(dev->deviceId!=MAD_88E1121)) 
        /* E1116/E3016/E3082/E1121 has no SGMII */
    {
        if((status = mdSGMIIGetAutoNeg(dev,port,&orgSGMIIState,&orgSGMIISpeed)) != MAD_OK)
        {
            MSG_PRINT(("mdSGMIIGetAutoNeg return Failed\n"));
            testMADDisplayStatus(status);
            return status;
        }
    }
    else
    {
        if((status = mdCopperGetAutoNeg(dev,port,&orgSGMIIState, (MAD_U32 *)&orgSGMIISpeed)) != MAD_OK)
        {
            MSG_PRINT(("mdCopperGetAutoNeg return Failed\n"));
            testMADDisplayStatus(status);
            return status;
        }
    }

    /* Disable DTE, if device is MAD_88E1121 */
    if (dev->deviceId==MAD_88E1121)
    {
        status = mdCopperSetDTEDetectEnable(dev,port,MAD_FALSE, 7);  /* dropHys=7 */
        if (status != MAD_OK)
        {
            MSG_PRINT(("mdCopperSetDTEDetectEnable return Failed %x ",(int)status));
            testMADDisplayStatus(status);
            return status;             
        }
    }
    
    /*
     *    Start and get Cable Test Result
    */
    do
    {
    if(((status = mdDiagGetCableStatus(dev,port, &cableStatus)) != MAD_OK)
           && ((status&MAD_RUN_ST_MASK)!=MAD_PENDING))
    {
        testMADDisplayStatus(status);
        if(status == MAD_API_TDRVCT_NOT_SUPPORT )
          MSG_PRINT(("gvctGetCableDiag return Failed. The device does not support VCT!\n"));
        else
          MSG_PRINT(("gvctGetCableDiag return Failed. Check Link down!\n"));

        return status;
    }
    } while ((status&MAD_RUN_ST_MASK)==MAD_PENDING);

    MSG_PRINT(("Get status %x\n",(int)status));
    MSG_PRINT(("Cable Test Result for Port %i\n",(int)port));

    for(i=0; i<MAD_MDI_PAIR_NUM; i++)
    {
        MSG_PRINT(("MDI PAIR %i:\n",i));
        displayVCTResult(&cableStatus.cableStatus[i],
                            &cableStatus.cableLen[i]);
    }

    /* Enable DTE, if device is MAD_88E1121 */
    if (dev->deviceId==MAD_88E1121)
    {
        status = mdCopperSetDTEDetectEnable(dev,port,MAD_TRUE, 7);  /* dropHys=7 */
        if (status != MAD_OK)
        {
            MSG_PRINT(("mdCopperSetDTEDetectEnable return Failed %x ",(int)status));
            testMADDisplayStatus(status);
            return status;             
        }
    }

    /*
     *    Reconfigure MDI Crossover mode
    */
    if((status = mdCopperSetMDIMode(dev,port,orgMdiMode)) != MAD_OK)
    {
        MSG_PRINT(("mdCopperSetMDIMode return Failed\n"));
        testMADDisplayStatus(status);
        return status;
    }

    /*
     *    Reconfigure SGMII Auto-Neg mode
    */
    if ((dev->deviceId!=MAD_88E1116)&&(dev->deviceId!=MAD_88E3016)
        &&(dev->deviceId!=MAD_88E3082)&&(dev->deviceId!=MAD_88E1121)) 
        /* E1116/E3016/E1121 has RGMII only */
    {
        if((status = mdSGMIISetAutoNeg(dev,port,orgSGMIIState,orgSGMIISpeed)) != MAD_OK)
        {
            MSG_PRINT(("mdSGMIISetAutoNeg return Failed\n"));
            testMADDisplayStatus(status);
            return status;
        }
    }
    else
    {
        if((status = mdCopperSetAutoNeg(dev,port,orgSGMIIState,orgSGMIISpeed)) != MAD_OK)
        {
            MSG_PRINT(("mdCopperSetAutoNeg return Failed\n"));
            testMADDisplayStatus(status);
            return status;
        }
    }

    status=mdSysSoftReset ( dev, port);
    if (status==MAD_OK)
    {
      MSG_PRINT(("Soft resetfor  port %d.\n", (int)port));
    }

    return MAD_OK;
}

/* DSP VCT */
MAD_STATUS madGetExtendedStatus(MAD_DEV *dev,MAD_LPORT port)
{
    MAD_STATUS status;
    MAD_1000BT_EXTENDED_STATUS extendedStatus;
    int i;
    char ch;

    if (dev == 0)
    {
        MSG_PRINT(("MAD driver is not initialized\n"));
        return MAD_FAIL;
    }

    /*
     *     Start getting Extended Information.
     */
    if((status = mdDiagGet1000BTExtendedStatus(dev,port, &extendedStatus)) != MAD_OK)
    {
        MSG_PRINT(("gvctGetCableDiag return Failed\n"));
        testMADDisplayStatus(status);
        return status;
    }

    if (!extendedStatus.isValid)
    {
        MSG_PRINT(("Not able to get Extended Status.\n"));
        MSG_PRINT(("Please check if 1000B-T Link is established on Port %i.\n",(int)port));
        return status;
    }

    /* Pair Polarity */
    MSG_PRINT(("Pair Polarity:\n"));
    for(i=0; i<MAD_MDI_PAIR_NUM; i++)
    {
        MSG_PRINT(("MDI PAIR %i: %s\n",i,
                (extendedStatus.pairPolarity[i] == MAD_POSITIVE)?"Positive":"Negative"));
    }

    /* Pair Swap */
    MSG_PRINT(("Pair Swap:\n"));
    for(i=0; i<MAD_MDI_PAIR_NUM; i++)
    {
        switch(extendedStatus.pairSwap[i])
        {
            case MAD_CHANNEL_A:
                ch = 'A';
                break;
            case MAD_CHANNEL_B:
                ch = 'B';
                break;
            case MAD_CHANNEL_C:
                ch = 'C';
                break;
            case MAD_CHANNEL_D:
                ch = 'D';
                break;
            default:
                MSG_PRINT(("Error: reported unknown Pair Swap %i\n",extendedStatus.pairSwap[i]));
                ch = 'U';
                break;
        }
    
        MSG_PRINT(("MDI PAIR %i: Channel %c\n",i,ch));
    }

    /* Pair Polarity */
    MSG_PRINT(("Pair Skew:\n"));
    for(i=0; i<MAD_MDI_PAIR_NUM; i++)
    {
        MSG_PRINT(("MDI PAIR %i: %ins\n",i,(int)extendedStatus.pairSkew[i]));
    }

    /* Pair Polarity */
    MSG_PRINT(("Cable Len:\n"));
    for(i=0; i<MAD_MDI_PAIR_NUM; i++)
    {
        MSG_PRINT(("MDI PAIR %i: approximately %im\n",i,(int)extendedStatus.cableLen[i]));
    }

    status=mdSysSoftReset ( dev, port);
    if (status==MAD_OK)
    {
      MSG_PRINT(("Soft resetfor  port %d.\n", (int)port));
    }
    return MAD_OK;
}


static
void displayAdvVCTResult
(
    MAD_ADV_CABLE_STATUS *cableStatus, 
    int    channel,
    MAD_ADV_VCT_MODE mode
)
{
    int i, j=channel;

    if(mode.mode==MAD_ADV_VCT_OFFSET)
    {
        if(cableStatus->u[j].offset==0)
          MSG_PRINT(("Advanced VCT ofsset pair %x test failed\n", j));
        else if(cableStatus->u[j].offset==0x80)
          MSG_PRINT(("Advanced VCT ofsset pair %x is 0 \n", j));
        else
          MSG_PRINT(("Advanced VCT ofsset pair %x is %d \n", j, cableStatus->u[j].offset));

      return;
    }
    if(mode.mode==MAD_ADV_VCT_SAMPLE_POINT)
    {
        if(cableStatus->u[j].sampleAmp&0x80)
          MSG_PRINT(("Advanced VCT sample point return pair %x is -%d \n", j, cableStatus->u[j].sampleAmp&0x7f));
        else
          MSG_PRINT(("Advanced VCT sample point return pair %x is +%d \n", j, cableStatus->u[j].sampleAmp&0x7f));

      return;
    }


    switch(cableStatus->cableStatus[channel])
    {
        case MAD_ADV_VCT_FAIL:
            MSG_PRINT(("Advanced Cable Test Failed\n"));
            break;
        case MAD_ADV_VCT_NORMAL:
            MSG_PRINT(("Cable Test Passed. No problem found.\n"));
            break;
        case MAD_ADV_VCT_IMP_GREATER_THAN_115:
            MSG_PRINT(("Cable Test Passed. Impedance is greater than 115 Ohms.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_IMP_LESS_THAN_85:
            MSG_PRINT(("Cable Test Passed. Impedance is less than 85 Ohms.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_OPEN:
            MSG_PRINT(("Cable Test Passed. Open Cable.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_SHORT:
            MSG_PRINT(("Cable Test Passed. Shorted Cable.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_CROSS_PAIR_SHORT:
            MSG_PRINT(("Cable Test Passed.\n"));
            for(i=0; i<MAD_MDI_PAIR_NUM; i++)
            {
                if(cableStatus->u[channel].crossShort.channel[i] == MAD_TRUE)
                {
                    MSG_PRINT(("\tCross pair short with channel %i.\n",i));
                    MSG_PRINT(("\tApproximatly %i meters from the tested port.\n",
                                    cableStatus->u[channel].crossShort.dist2fault[i]));
                }
            }
            break;
        default:
            MSG_PRINT(("Unknown Test Result.\n"));
            break;
    }
}

/* Advanced VCT (TDR) */
static    MAD_ADV_CABLE_STATUS advCableStatus;

MAD_STATUS madAdvVctTest(MAD_DEV *dev,MAD_LPORT port)
{
  MAD_STATUS status;
  int i, j;
  MAD_ADV_VCT_MODE mode;

  MAD_ADV_VCT_MOD mod[4] = {
    MAD_ADV_VCT_FIRST_PEAK,
    MAD_ADV_VCT_MAX_PEAK,
    /* Currently, do not suppot */
    MAD_ADV_VCT_OFFSET,
    MAD_ADV_VCT_SAMPLE_POINT
    };
  char modeStr[4][32] = {
    "*** ADV_VCT_FIRST_PEAK >>>",
    "*** ADV_VCT_MAX_PEAK >>>",
    "*** ADV_VCT_OFFSET >>>",
    "*** ADV_VCT_SAMPLE_POINT >>>"
  };

  if (dev == 0)
  {
    MSG_PRINT(("MAD driver is not initialized\n"));
    return MAD_FAIL;
  }

  for (j=0; j<4; j++)
  {
     mode.mode=mod[j];
      mode.transChanSel=MAD_ADV_VCT_TCS_NO_CROSSPAIR;   
/*     mode.transChanSel=MAD_ADV_VCT_TCS_CROSSPAIR_2;   */
     mode.sampleAvg = 0;
     mode.peakDetHyst =0;
     mode.samplePointDist =0; 
    if(mode.mode==MAD_ADV_VCT_SAMPLE_POINT)
    {
       mode.samplePointDist =0x50; 
    }

    /*
     *    Start and get Cable Test Result
    */
/*printf("!!!!!!!!! start madAdvVctTest \n"));*/
    status = MAD_OK;
    do
    {
    if(((status = mdDiagGetAdvCableStatus(dev,port,
        mode,&advCableStatus)) != MAD_OK)
           && ((status&MAD_RUN_ST_MASK)!=MAD_PENDING))
    {
        MSG_PRINT(("gvctGetCableDiag return Failed\n"));
        testMADDisplayStatus(status);
        return status;
    }
    } while ((status&MAD_RUN_ST_MASK)==MAD_PENDING);


    MSG_PRINT(("^^^ Cable Test Result %s for Port %i\n", modeStr[j], (int)port));

    for(i=0; i<MAD_MDI_PAIR_NUM; i++)
    {
        MSG_PRINT(("MDI PAIR %i:\n",i));
        displayAdvVCTResult(&advCableStatus, i, mode); 
    }
  }
  status=mdSysSoftReset ( dev, port);
  if (status==MAD_OK)
  {
    MSG_PRINT(("Soft resetfor  port %d.\n", (int)port));
  }

  return MAD_OK;
}

static
void _displayAdvVCTResult
(
    MAD_ADV_CABLE_STATUS *cableStatus, 
    int    channel, 
    MAD_ADV_VCT_MODE mode
)
{
    int i, j=channel;

    if(mode.mode==MAD_ADV_VCT_OFFSET)
    {
        if(cableStatus->u[j].offset==0)
          MSG_PRINT(("Advanced VCT ofsset pair %x test failed\n", j));
        else if(cableStatus->u[j].offset==0x80)
          MSG_PRINT(("Advanced VCT ofsset pair %x is 0 \n", j));
        else
          MSG_PRINT(("Advanced VCT ofsset pair %x is %d \n", j, cableStatus->u[j].offset));

      return;
    }

    if(mode.mode==MAD_ADV_VCT_SAMPLE_POINT)
    {
        if(cableStatus->u[j].sampleAmp&0x80)
          MSG_PRINT(("Advanced VCT sample point return pair %x is -%d \n", j, cableStatus->u[j].sampleAmp&0x7f));
        else
          MSG_PRINT(("Advanced VCT sample point return pair %x is +%d \n", j, cableStatus->u[j].sampleAmp&0x7f));

      return;
    }


   switch(cableStatus->cableStatus[channel])
    {
        case MAD_ADV_VCT_FAIL:
            MSG_PRINT(("Advanced Cable Test Failed\n"));
            break;
        case MAD_ADV_VCT_NORMAL:
            MSG_PRINT(("Cable Test Passed. No problem found.\n"));
            break;
        case MAD_ADV_VCT_IMP_GREATER_THAN_115:
            MSG_PRINT(("Cable Test Passed. Impedance is greater than 115 Ohms.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_IMP_LESS_THAN_85:
            MSG_PRINT(("Cable Test Passed. Impedance is less than 85 Ohms.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_OPEN:
            MSG_PRINT(("Cable Test Passed. Open Cable.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_SHORT:
            MSG_PRINT(("Cable Test Passed. Shorted Cable.\n"));
            MSG_PRINT(("Approximatly %i meters from the tested port.\n",cableStatus->u[channel].dist2fault));
            break;
        case MAD_ADV_VCT_CROSS_PAIR_SHORT:
            MSG_PRINT(("Cable Test Passed.\n"));
            for(i=0; i<MAD_MDI_PAIR_NUM; i++)
            {
                if(cableStatus->u[channel].crossShort.channel[i] == MAD_TRUE)
                {
                    MSG_PRINT(("\tCross pair short with channel %i.\n",i));
                    MSG_PRINT(("\tApproximatly %i meters from the tested port.\n",
                                    cableStatus->u[channel].crossShort.dist2fault[i]));
                }
            }
            break;
        default:
            MSG_PRINT(("Unknown Test Result.\n"));
            break;
    }
}



MAD_STATUS testUncompletedVCT (MAD_DEV *dev,MAD_LPORT port)
{
  MAD_STATUS retVal;
  MAD_BOOL onOff;
  MAD_ADV_CABLE_STATUS  advCableStatus;

  MSG_PRINT(("Start testUncompletedVCT\n"));
 
  retVal = mdCopperSetAutoNeg(dev,port,MAD_TRUE,0);
  if (retVal != MAD_OK)
  {
     MSG_PRINT(("Setting for (port %i, test case %i) returned ",(int)port,0));
     testMADDisplayStatus(retVal);
     return retVal;             
  }
  MSG_PRINT(("After set mode 0\n"));
   retVal = mdCopperGetLinkStatus(dev,port,&onOff);
  if (retVal != MAD_OK)
  {
     MSG_PRINT(("Get Link status error %#02x\t",(int)retVal)); 
     testMADDisplayStatus(retVal);
  }

  if (onOff==MAD_TRUE)
  {
        MSG_PRINT(("Link Up return\n"));
        return MAD_OK;
  }
  else
  {
      int i;
     MAD_ADV_VCT_MODE mode;

       mode.mode=MAD_ADV_VCT_MAX_PEAK;
     mode.transChanSel=MAD_ADV_VCT_TCS_CROSSPAIR_0;  
     /* mode.transChanSel=MAD_ADV_VCT_TCS_NO_CROSSPAIR; */
     mode.sampleAvg = 0;
     mode.peakDetHyst =0;
     mode.samplePointDist =0; 


     MSG_PRINT(("Link down, start advanced TDR\n"));
      MSG_PRINT(("Link Down, Start Advanced VCT(TDR)\n"));
      if((retVal = mdDiagGetAdvCableStatus(dev,port,mode,&advCableStatus)) != MAD_OK)
      {
        MSG_PRINT(("gvctGetAdvCableStatus return Failed\n"));
        testMADDisplayStatus(retVal);
        for (i=0; i<4; i++)
          _displayAdvVCTResult( &advCableStatus, i, mode);
        return MAD_FAIL;
      }
         for (i=0; i<4; i++)
          _displayAdvVCTResult( &advCableStatus, i, mode);
 }
 retVal=mdSysSoftReset ( dev, port);
 if (retVal==MAD_OK)
 {
   MSG_PRINT(("Soft resetfor  port %d.\n", (int)port));
 }
 return MAD_OK;
}


/* Alternate VCT */
static    MAD_ALT_CABLE_STATUS altCableStatus;
static
void displayAltVCTResult
(
    MAD_ALT_CABLE_STATUS *cableStatus, 
    int    channel,
    int meter
);

MAD_STATUS madAltVctTest(MAD_DEV *dev,MAD_LPORT port, int meter)
{
  MAD_STATUS status;
  int i, j;
  MAD_U32 diagType;

  MAD_U32 mod[4] = {
    MAD_ALT_VCT_RUN_AUTONEGO_CYCLE_BIT | MAD_ALT_VCT_DISABLE_CROSS_PAIR_BIT | MAD_ALT_VCT_RUN_AFTER_BREAK_LNK_BIT,
    MAD_ALT_VCT_RUN_AUTONEGO_CYCLE_BIT,
    MAD_ALT_VCT_DISABLE_CROSS_PAIR_BIT,
    MAD_ALT_VCT_RUN_AFTER_BREAK_LNK_BIT
    };
  char modeStr[4][64] = {
/*    "VCT_RUN_AUTONEGO_CYCLE | DISABLE_CROSS_PAIR | RUN_AFTER_BREAK_LNK", */
    "VCT AUTONEGO_CYCLE | DISABLE_CROSS_PAIR | AFTER_BREAK_LNK", 
    "*** ALT_VCT_RUN_AUTONEGO_CYCLE >>>",
    "*** ALT_VCT_DISABLE_CROSS_PAIR >>>",
    "*** ALT_VCT_RUN_AFTER_BREAK_LNK >>>"
  };

  if (meter)
    altCableStatus.cableLenUnit = MAD_ALT_VCT_CABLE_LENGTH_UNIT_BIT; /* lenth unit is meter */
  else
    altCableStatus.cableLenUnit = 0; /* lenth unit is centimeter */

  if (dev == 0)
  {
    MSG_PRINT(("MAD driver is not initialized\n"));
    return MAD_FAIL;
  }

  for (j=0; j<4; j++)
  {
     diagType=mod[j];

    /*
     *    Start and get Cable Test Result
    */
    status = MAD_OK;
    do
    {
    if(((status = mdDiagGetAltCableStatus(dev,port,
        diagType,&altCableStatus)) != MAD_OK)
           && ((status&MAD_RUN_ST_MASK)!=MAD_PENDING))
    {
        MSG_PRINT((("mdDiagGetAltCableStatus return Failed\n"));
        testMADDisplayStatus(status);
        return status;
    }
    } while ((status&MAD_RUN_ST_MASK)==MAD_PENDING);


    MSG_PRINT(("^^^ Cable Test Result %s for Port %i\n", modeStr[j], (int)port));

    for(i=0; i<MAD_MDI_PAIR_NUM; i++)
    {
        MSG_PRINT(("MDI PAIR %i:\n",i));
        displayAltVCTResult(&altCableStatus, i, meter); 
    }
  }
  status=mdSysSoftReset ( dev, port);
  if (status==MAD_OK)
  {
    MSG_PRINT(("Soft resetfor  port %d.\n", (int)port));
  }

  return MAD_OK;
}

static
void displayAltVCTResult
(
    MAD_ALT_CABLE_STATUS *cableStatus, 
    int    channel,
    int meter
)
{

    switch(cableStatus->cableFaultCode[channel])
    {
        case MAD_ALT_VCT_FAULT_INVALID:
            MSG_PRINT(("Alternate VCT Cable Test passed, Fault invalid\n"));
            break;
        case MAD_ALT_VCT_FAULT_PAIR_OK:
            MSG_PRINT(("Cable Test Passed. Pair Ok.\n"));
            break;
        case MAD_ALT_VCT_FAULT_PAIR_OPEN:
            MSG_PRINT(("Cable Test Passed. Cable open.\n"));
            break;
        case MAD_ALT_VCT_FAULT_SAME_PAIR_SHORT:
            MSG_PRINT(("Cable Test Passed. Same pair short\n"));
            break;
        case MAD_ALT_VCT_FAULT_CROSS_PAIR_SHORT:
            MSG_PRINT(("Cable Test Passed. Cross pair short.\n"));
            break;
        case MAD_ALT_VCT_FAULT_PAIR_BUSY:
            MSG_PRINT(("Cable Test Passed. Fault pair busy.\n"));
            break;
        default:)
            MSG_PRINT(("Unknown Test Result. %x\n", cableStatus->cableFaultCode[channel]));
            break;
    }

    if(meter)
         MSG_PRINT(("\tApproximatly cable length %i m .\n", cableStatus->cableLen[channel]));
    else
         MSG_PRINT(("\tApproximatly cable length %i cm .\n", cableStatus->cableLen[channel]));
}



